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Antarctica | |
- Buckley Island quadrangle
| Lee, M. R., Cohen, B. E., King, A. J., & Greenwood, R. C. (2019). The diversity of CM carbonaceous chondrite parent bodies explored using Lewis Cliff 85311. Geochimica et Cosmochimica Acta, 264, 224-244. |
| Grossman, J. N., MacPherson, G. J. & Crozaz, G. (1993) LEW 87223: A Unique E Chondrite with Possible Links to H Chondrites (abstract), Meteoritics 28, no. 3, #28, p. 358. (July 1993) |
| Weisberg, M. K. & 5 others (1993) Petrology and Stable Isotopes of LEW 87232, A New Kakangari-type Chondrite: Meteoritics 28(3): 458-459. (July 1993). |
| Lin, Y. T., Nagel, H-J., Lundberg, L. L. & El Goresy, A. (1991) MAC88136--The First EL3 Chondrite (abstract): Lunar and Planetary Science Conference XXII: 811-812. (March 1991) |
| Meteoritics 25,357(1990) |
| Buchwald, Vagn F. (1975) Handbook of Iron Meteorites - Their History, Distribution, Composition and Structure. University of California Press. |
| Kimura, M. & Ikeda, Y. (1992). Mineralogy and Petrology of an unusual Belgica-7904 Carbonaceous Chondrite: Genetic Relationships among the Components. Proc. NIPR Symp. Antarct. Meteorites 5: 74-119. (March 1992) |
| Zaslavskaya, N.I., and Kolesov, G.M. [Заславская, Н.И., и Колесов, Г.М.] (1980) The Lazarev meteorite [Метеорит Лазарев]. Meteoritika [Метеоритика], 39, 64-69 (in Russian). Buchwald, Vagn F. (1975) Handbook of Iron Meteorites Vol. 2 - Their History, Distribution, Composition and Structure. University of California Press. |
| El Gorsey, A., Yabuki, H., Ehlers, K., Woolum, D. & Pernicka, E. (1988). Qingzhen and Yamato-691: A tentative alphabet for the EH chondrites. Proceedings NIPR Symposium Antarctic Meteorites 1, 65-101. |
| Lin, Y. & Kimura, M. (1998) Petrographic and mineralogical study of new EH melt rocks and a new enstatite chondrite grouplet: Meteoritics & Planetary Science 33(3): 501-511. (May 1998) |
- Steingarden Nunataks site
| Brandstätter, F., Delisle, G., Koeberl, C., and Topa, D. (2019) The Antarctic iron meteorite Steingarden Nunataks (STG) 07009. Annalen des Naturhistorischen Museums in Wien, Serie A, 121, 113-124. Bouvier, A., Gattacceca, J., Grossman, J., and Metzler, K. (2016) The Meteoritical Bulletin, No. 105. Meteoritics & Planetary Science, 52, 11, 2411, https://www.lpi.usra.edu/meteor/metbull.php?code=64389 |
| Rosenshein, E. B., Ivanova, M. A., Dickinson, T. L., McCoy, T. J., Lauretta, D. S., Guan, Y., (2006) Oxide-bearing and FeO-rich clasts in aubrites. Meteoritics, vol. 41, Issue 4, p.495-503 |
| Edward R. D. Scott (1988). A New Kind of Primitive Chondrite: Allan Hills 85085. Abstracts of the Lunar and Planetary Science Conference, vol. 19, p. 1049. |
| Ross, Daphne R. (1981) An Antarctic iron meteorite contains preterrestrial impact-produced diamond and lonsdaleite. Nature, 291, 396–398. Clarke Jr., Roy S. Appleman, Daniel E. |
| Gannoun, A., Boyet, M., El Goresy, A., & Devouard, B. (2011). REE and actinide microdistribution in Sahara 97072 and ALHA77295 EH3 chondrites: A combined cosmochemical and petrologic investigation. Geochimica et Cosmochimica Acta, 75(11), 3269-3289 |
| Han, J. & Brearley, A. J. (2012) The Microstructure and Microchemistry of Amoeboid Olivine Aggregates from the ALHA 77307 CO3.0 Carbonaceous Chondrite: Constraints on Formation and Thermal Histories: 43rd Lunar and Planetary Science Conference. LPI Contribution No. 1659, id.1323. (Mar 2012) |
| Beard, A. D., Downes, H. & Howard, K. (2009) Hydrated Silica (Opal) in a Polymict Ureilite, EET 83309: Meteoritics & Planetary Science 44 (7, Supplement): page. A31. (Sept 2009). |
| Meteoritical Bulletin, 84 (Aug. 2000) |
| van Niekerk, D., Keil, K. & Humayan, M. (2014) Petrogenesis of anomalous Queen Alexandra Range enstatite meteorites and their relation to enstatite chondrites, primitive enstatite achondrites, and aubrites: Meteoritics & Planetary Science 49 (3): 295-312. (March 2014) Weisberg, M. K., Prinz, M. & Nehru, C. E. (1997) QUE 94204 - an EH-chondritic melt rock (Conference Paper): Lunar and Planetary Science Conference XXVIII, pdf#1358: 525-526. (March 1997) Enstatite Calcite, Clinoenstatite, Cristobalite, Daubréelite, Goethite, Gypsum, Nickel-iron, Plagioclase, Kamacite, Schreibersite , Troilite |
- Graves Nunataks meteorites
| Anzures, Brendan A., McCubbin, Francis M., Erickson, Timmons M., Jakubek, Ryan S., Fries, Marc D., Le, Loan (2024) First widespread occurrence of rare phosphate chladniite in a meteorite, winonaite Graves Nunataks (GRA) 12510: implications for phosphide – phosphate redox buffered genesis in meteorites. American Mineralogist. doi:10.2138/am-2023-9195 Meteoritical Bulletin Database |
| Floss, C. (1999) Fe,Mg,Mn-bearing phosphates in the GRA 95209 meteorite: Occurrences and mineral chemistry. American Mineralogist: 84(9): 1354-1359. Geochimica et Cosmochimica Acta Volume 70, Issue 2, 15 January 2006, Pages 516-531 |
| Danielson, L.R., Righter, K. & Humayun, M. (2009) Trace element chemistry of Cumulus Ridge 04071 pallasite with implications for main group pallasites: Meteoritics & Planetary Science 44 (7):1019-1032. (July 2009) McCoy, T. et al. (2005) Antarctic Meteorite Newsletter 28 (2). |